Last night saw the end of the Google Technology Campout weekend, with about 25 or 30 groups giving demos of a lot of cool Wave apps. I particularly liked the robot/gadget that analyzed when it was time for a group of wave participants to leave the wave and meet in real life, supplying a list of possible venues to meet based on the participants’ physical location. A vocabulary analyzer from a group of brothers also looked pretty good. I also liked the h3lp application, kind of like an Onstar four your mobile phone, which pushed out alerts to selected contacts in case of an emergency. In the end, the winner was the video sharing team.

The demo for our BlipWiki project (which I blogged about here) unfortunately had technical difficulties so our presentation didn’t go so well. One of our 2 browsers couldn’t seem to connect so we didn’t get to show our Wiki updating in real time in the way we would have liked. Still, I think we had a great application at the end of the weekend, and I certainly learned a lot, met a lot of great people, and got to know Google Wave much better. A great weekend…

There are photos and videos from the weekend posted here and a write up in the San Jose Mercury News.

I’m currently at the Google Technology User Group Camp out weekend down at Google’s offices in Mountain View. The objective of the weekend is to form a team and develop an application, using Google technologies. The demos are Sunday afternoon.

I joined the Blip Wiki team. A Blip is simply a single message within a ‘Wave’ conversation. A Wiki, of course, is a software tool that allows users to easily create, link and collaborate on documents. So, our goal with the ‘Blip Wiki’ project was to bring the incredible collaboration capabilities of Google Wave (real time updates, autocorrect context sensitive spelling etc) to the easy document setup and linkability of a Wiki.
Although Wave can certainly be used to collaboratively create documents as it is, Wave is inherently conversation focused. We wanted Blip Wiki to be inherently Document focused.

To do this however, we needed to use our own instance of a Wave server i.e. use the Google Wave Federation Prototype Server rather than the regular Wave server hosted by Google. We also needed to come up with a new client (something like tiddlywiki) and, most importantly, ensure our client can communicate with the server. Our project won the award for the most ambitious pitch at the start of the weekend!

Federation Prototype Server and example client

We got off to a good start by getting the Wave Prototype Server downloaded, building and running (it runs on top of OpenFire, a real time collaboration server that uses XMPP/Jabber). We then got the demo wave client running and talking to our server. We managed this by late Friday evening.

Client/Server protocol

Next, we created our own demo client and tried to get it interacting with our Wave server. That is when we started running into problems. First, the client/server protocol has not yet been formalized, and there don’t seem to be any definite plans to do that yet either. For example, although this Client Server Protocol White paper describes a protocol and data model, it does not give any details on the format that should be used, or suggestions on how to use it. There is a lengthy discussion in the Wave Protocol Google Group about this. For example, someone suggests that the client server protocol is just protocol buffers ‘over the wire’. But a protobuf is really just a simple data format, and while I assume ‘over the wire’ means RPC, it is all a bit vague.

Submitting changes

The client/server protocol used in the example client (a “toy’ text client) is for “illustrative purposes only”, according to this doc. We couldn’t seem to find much documentation for it, perhaps because it is not supposed to serve as a standardized example. As a result, we found it difficult to reverse engineer. So, we ended up resorting to using the Client example code to marshal our data to and from the server. The example client code in effect became a sort of interface to the server for us. A client side stub, if you will. (We had this running in the web tier servlet layer).

Receiving updates

So, after we had used the Client example code to submit changes (blip updates) to the server, our next hurdle was understanding the data that gets returned. Ideally, we would like a ‘delta’ of the data. That is, after the server has done it Operational Transformation magic, we would just like the latest and greatest version of the data to display on the client. However, this proved difficult to get from the server. Instead all I could seem to get was a non-delimited complete history of the blip. I admit that this was done using pretty hacky code. I am sure there must be another, better way!

So, we ended up taking a similar approach to the example client, and just displaying the latest submissions.

Demo ready – almost…

Right now, we have a working client and server with updates made on one user’s WikiBlip automatically showing up in another users.

It would have been really nice to be able to deploy our local Wave Server to app engine, but apparently this isn’t possible since the OpenFire jars required aren’t on the whitelist of allowed jars.
It also would have been nice to experiment with our local Wave server talking to the real Google Wave server (e.g. to have a regular wave client user be able to interact with a blip wiki), but apparently this is not possible due to authentication issues.

So, we chose a very difficult task for the weekend! But, we have a working version ready to demo and it has been a great weekend all in all.

Thank you’s

A big thank you to

Sriram and Sreejith, my BlipWiki teammates

Kevin and Van from the GTUG

Stephanie, Brian, Fred and all the all Googlers who made the weekend possible and great!